Muscle vibration therapy leg sleeve

By incorporating multi-mode vibration and precise temperature control into the muscle therapy leg sleeve, the problems of single vibration mode and uneven temperature are solved, achieving a personalized therapy experience and promoting blood circulation.

CN224387764UActive Publication Date: 2026-06-23DONGGUAN JULIXIN MEDICAL PROD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DONGGUAN JULIXIN MEDICAL PROD CO LTD
Filing Date
2025-04-14
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing muscle therapy leg sleeves have a single vibration mode, insufficient temperature control, and uneven heat application, which affects user experience and effectiveness.

Method used

It uses a vibration motor and heating wire in combination with a temperature control component and a thermometer to achieve multi-mode vibration and precise temperature control, and provides massage and heat therapy effects through the airbag bag.

Benefits of technology

It provides a personalized physiotherapy experience, enhances comfort and massage effects, ensures appropriate temperature, and improves blood circulation and recovery.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to the technical field of physiotherapy, especially muscle vibration physiotherapy leg cover. The utility model provides muscle vibration physiotherapy leg cover, including installation shell, leg cover body, air pump, air pipe, vibration motor, power interface, connector, wire, plug and heating wire etc., the top of installation shell is sewed with leg cover body, is equipped with air bag cloth bag in the inside of leg cover body, is installed with air pump in installation shell left side, is connected with air pipe in air pump, and the air intake end of air pipe and air bag cloth bag butt joint, is installed with vibration motor on the air bag cloth bag in leg cover body, is equipped with power interface in installation shell front side, and the connector is inserted in power interface, is equipped with wire on the connector, and the front end of wire is equipped with plug, is installed with heating wire in the inside front side of installation shell, still includes temperature control component, and is equipped with temperature control component in the left side of installation shell. Through the design of temperature controller and temperature detector, can realize intelligent adjustment heating power, ensure that temperature is appropriate, promote the comfort and individual experience of physiotherapy.
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Description

Technical Field

[0001] This utility model relates to the field of physiotherapy technology, and in particular to a muscle vibration physiotherapy leg sleeve. Background Technology

[0002] Muscle therapy leg warmers, a common rehabilitation and relaxation device, are typically equipped with massage functions, offering various types of massage services. Some high-end muscle therapy leg warmers also feature a heating function, effectively relaxing muscles and promoting blood circulation through heat. Therapy chairs are widely used in homes, offices, and massage parlors, providing people with a comfortable sitting experience and a relaxing massage enjoyment.

[0003] While existing muscle therapy leg sleeves have met some market demands to a certain extent, some obvious shortcomings remain. The primary issue is that most muscle therapy leg sleeves offer relatively limited vibration patterns, typically providing only one or a few fixed vibration modes, which restricts their applicability and user experience. Furthermore, the heat therapy function of existing leg sleeves also has certain deficiencies, such as imprecise temperature control and uneven heat distribution, affecting the actual effectiveness of the heat therapy.

[0004] Therefore, we need to provide muscle vibration therapy leg sleeves. Utility Model Content

[0005] To overcome the shortcomings of insufficient temperature control, this utility model provides a muscle vibration therapy leg sleeve.

[0006] The muscle vibration therapy leg sleeve includes a mounting shell, a leg sleeve body, an air pump, an air tube, a vibration motor, a power interface, a connector, a wire, a plug, and a heating wire. The leg sleeve body is sewn onto the top of the mounting shell, and an airbag is sewn onto the inside of the leg sleeve body. An air pump is installed on the left side of the mounting shell, and an air tube is connected to the air pump. The air tube connects to the air inlet of the airbag. Vibration motors are evenly spaced on the airbag inside the leg sleeve body, and vibration motors are also installed in the foot area of ​​the leg sleeve body. A power interface is located on the front of the mounting shell, and a connector is plugged into the power interface. A wire is connected to the connector, and the end of the wire has a plug. A heating wire is installed on the front inside the mounting shell and connected to the power interface. A temperature control component is also included, located on the left side of the mounting shell.

[0007] In a preferred embodiment of the present invention, the temperature control component includes a temperature controller, a thermometer, and a connecting wire. The temperature controller is installed on the left side of the mounting housing, and the thermometer is installed on the left side of the mounting housing. The probe of the thermometer extends into the interior of the mounting housing, and a connecting wire connects the thermometer and the temperature controller.

[0008] In a preferred embodiment of the present invention, a zipper head is also included. The front side of the leg cover body is designed to be open, and a zipper is sewn at the open part of the front side of the leg cover body. A zipper head is installed on the zipper.

[0009] In a preferred embodiment of this utility model, a circuit breaker is also included. The circuit breaker is installed on the power interface, and a connecting wire is also connected between the circuit breaker and the temperature controller.

[0010] In a preferred embodiment of this utility model, infrared lights are distributedly installed on the airbag pouch inside the leg sleeve body.

[0011] In a preferred embodiment of this utility model, a protective pad is provided at the bottom of the mounting shell.

[0012] The beneficial effects and significant advancements of this utility model are as follows:

[0013] This invention optimizes the therapeutic effect by combining a vibration motor with a heating wire. After the heating wire heats the solution, the vibration motor can start vibrating to provide comfortable therapy for the legs. Through the design of the temperature controller and thermometer, users can set the desired therapy temperature range according to their personal needs, realize intelligent adjustment of heating power, ensure suitable temperature, and improve the comfort and personalized experience of the therapy. Attached Figure Description

[0014] Figure 1 This is a three-dimensional structural diagram of the present invention.

[0015] Figure 2 This is a three-dimensional structural diagram of the leg sleeve body, air pump, air pipe, and other components of this utility model.

[0016] Figure 3 This is an enlarged three-dimensional structural diagram of point A of this utility model.

[0017] Figure 4 This is a three-dimensional structural diagram of the temperature controller, temperature sensor, and connecting wires of this utility model.

[0018] The above-mentioned attached drawings include the following reference numerals: 1. mounting shell, 2. leg sleeve body, 201. air pump, 202. air pipe, 3. zipper head, 4. vibration motor, 5. power interface, 51. connector, 6. wire, 7. plug, 8. heating wire, 9. temperature controller, 10. thermometer, 11. connecting wire, 12. circuit breaker. Detailed Implementation

[0019] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to specific embodiments and accompanying drawings. It should be understood that these descriptions are merely exemplary and not intended to limit the scope of this utility model. Furthermore, descriptions of well-known structures and technologies are omitted in the following description to avoid unnecessarily obscuring the concept of this utility model.

[0020] Example: Muscle vibration therapy leg sleeves, please see below. Figures 1 to 4As shown, the device includes a mounting shell 1, a leg sleeve body 2, an air pump 201, an air hose 202, a zipper pull 3, a vibration motor 4, a power interface 5, a connector 51, a power cord 6, a plug 7, a heating wire 8, a temperature controller 9, a thermometer 10, a connecting wire 11, and a circuit breaker 12. The bottom of the mounting shell 1 has a protective pad to protect it. The top of the mounting shell 1 is sewn with the leg sleeve body 2, and an airbag is sewn inside the leg sleeve body 2. An air pump 201 is installed on the left side of the mounting shell 1. The output end of the air pump 201 is connected to the air hose 202, which is connected to the air inlet end of the airbag. The air pump 201 provides air pressure, and the air hose 202 is used for... To transmit air pressure, the air tube 202 connects to the air inlet of the airbag bag to inflate the airbag bag, thereby achieving a leg massage effect. The front of the leg sleeve body 2 has a V-shaped open design for easy wearing. The leg sleeve body 2 is made of textile fabric, and a zipper is sewn at the opening of the leg sleeve body 2. The zipper has a zipper pull 3. By pulling up the zipper pull 3, the leg sleeve body 2 can tightly wrap around the leg. Vibration motors 4 are evenly spaced on the airbag bag inside the leg sleeve body 2, and vibration motors 4 are also evenly spaced on the sole area of ​​the leg sleeve body 2. Infrared lamps are distributed on the airbag bag inside the leg sleeve body 2. The infrared lamps emit infrared light. The wires can penetrate into the tissue beneath the skin, generating a thermal effect. This thermal effect helps increase local blood circulation and accelerate blood flow, thereby delivering oxygen and nutrients to the affected area, aiding in recovery. The vibration motor 4 provides acupressure massage therapy for leg acupoints. A supersaturated sodium acetate solution is stored inside the mounting housing 1. A power interface 5 is installed on the front side of the mounting housing 1, serving as the power input interface. A connector 51 is plugged into the power interface 5, and a wire 6 is connected to the connector 51. A plug 7 is connected to the front end of the wire 6. A heating wire 8 is installed on the front side inside the mounting housing 1, connected to the power interface 5 for heating. A supersaturated sodium acetate solution is installed. A temperature controller 9 and a thermometer 10 are installed on the left side of the mounting shell 1. The probe of the thermometer 10 extends into the mounting shell 1 and contacts the supersaturated sodium acetate solution to measure the temperature of the solution in real time. A connecting line 11 connects the thermometer 10 and the temperature controller 9 to transmit the temperature signal. A circuit breaker 12 is installed on the power interface 5. A connecting line 11 also connects the circuit breaker 12 and the temperature controller 9. The temperature controller 9 can control the circuit breaker 12 to switch on and off according to the temperature signal transmitted from the thermometer 10, thereby achieving precise control of the heating process of the heating wire 8 and ensuring the safety and comfort of the physiotherapy process.

[0021] When using the muscle vibration therapy leg sleeve, first, insert plug 7 into a household power outlet and ensure that power interface 5 is properly connected to the power source to provide a stable power supply for the therapy leg sleeve.

[0022] Then, turn on the switch of the temperature controller 9. The temperature controller 9 will begin to receive temperature signals from the temperature sensor 10 and monitor the temperature of the supersaturated sodium acetate solution inside the mounting shell 1 in real time. When the solution temperature is lower than the set value, the temperature controller 9 will automatically control the circuit breaker 12 to close, causing the heating wire 8 to start heating the solution. As the solution temperature gradually rises, the air pump 201 can be activated. The air pump 201 will output air pressure, which is transmitted through the air tube 202 to the airbag bag inside the leg sleeve body 2. As the air pressure gradually increases, the airbag bag begins to expand and fits tightly against the user's legs. The expansion of the airbag bag not only provides the user with a comfortable wrapping feeling, but more importantly, under the action of air pressure, it begins to compress the legs. This squeezing action helps promote blood circulation in the legs, stimulating blood flow within the blood vessels through physical stimulation. At the same time, infrared lamps installed inside the leg sleeve body 2 begin to emit infrared light, which can easily penetrate into the tissue layer under the skin. Once the infrared light comes into contact with the tissue, it generates a thermal effect, which helps increase local blood circulation and accelerate blood flow, thereby delivering oxygen and nutrients to the affected area and aiding in recovery. Meanwhile, the vibration motor 4 will begin to vibrate, providing a comfortable massage therapy effect to the acupoints on the legs.

[0023] Users can set the desired therapeutic temperature range according to their individual needs using the adjustment buttons on the temperature controller 9. The temperature controller 9 will intelligently adjust the heating power of the heating wire 8 according to the set temperature range to maintain the solution temperature within the preset range, ensuring the safety and comfort of the therapeutic process.

[0024] In addition, users can manually adjust the vibration intensity of the vibration motor 4 as needed to obtain a more personalized physiotherapy experience.

[0025] When the treatment time reaches the preset value or the user is satisfied, the switch of the temperature controller 9 can be turned off to stop heating and massage. Then, safely unplug the plug 7 from the power outlet to disconnect from the power source. Finally, unzip the zipper 3 and easily remove the leg sleeve 2 from the legs.

[0026] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.

Claims

1. A muscle vibration therapy leg sleeve, comprising a mounting shell (1), a leg sleeve body (2), an air pump (201), an air tube (202), a vibration motor (4), a power interface (5), a connector (51), an electric wire (6), a plug (7), and a heating wire (8). The leg sleeve body (2) is sewn to the top of the mounting shell (1), and an airbag is sewn to the inside of the leg sleeve body (2). An air pump (201) is mounted on the left side of the mounting shell (1), and an air tube (202) is connected to the air pump (201). The air tube (202) is connected to the airbag. The air intake end is connected, and vibration motors (4) are evenly spaced on the airbag bag inside the leg sleeve body (2). Vibration motors (4) are also installed in the foot area of ​​the leg sleeve body (2). A power interface (5) is provided on the front side of the mounting shell (1). A connector (51) is plugged into the power interface (5). A wire (6) is connected to the connector (51). A plug (7) is provided at the front end of the wire (6). A heating wire (8) is installed on the front side inside the mounting shell (1). The heating wire (8) is connected to the power interface (5). Its characteristic is that... It also includes a temperature control component, which is located on the left side of the mounting housing (1).

2. The muscle vibration therapy leg sleeve according to claim 1, characterized in that, The temperature control assembly includes a temperature controller (9), a thermometer (10), and a connecting wire (11). The temperature controller (9) is installed on the left side of the mounting housing (1), and the thermometer (10) is installed on the left side of the mounting housing (1). The probe of the thermometer (10) extends into the mounting housing (1), and a connecting wire (11) connects the thermometer (10) and the temperature controller (9).

3. The muscle vibration therapy leg sleeve according to claim 2, characterized in that, It also includes a zipper head (3), the front of the leg cover body (2) is open, a zipper is sewn at the open front of the leg cover body (2), and a zipper head (3) is installed on the zipper.

4. The muscle vibration therapy leg sleeve according to claim 3, characterized in that, It also includes a circuit breaker (12), which is installed on the power interface (5), and a connecting wire (11) is also connected between the circuit breaker (12) and the temperature controller (9).

5. The muscle vibration therapy leg sleeve according to claim 1, characterized in that, Infrared lights are distributed on the airbags inside the leg sleeve body (2).

6. The muscle vibration therapy leg sleeve according to claim 1, characterized in that, The bottom of the mounting housing (1) is provided with a protective pad.